Recap Time: Biological Molecules - Chemical Basis of Life
Understand the components and functions of protoplasm, inorganic compounds, acids, bases, and organic compounds such as carbohydrates, fats, lipids, and proteins. Dive into the essence of life through a comprehensive overview of biological molecules.
Recap Time: Biological Molecules - Chemical Basis of Life
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Presentation Transcript
Lesson 4 CHEMICAL BASIS OF LIFE: BIOLOGICAL MOLECULES
Activity (10 mins) Guide Questions: 1. What is a protoplasm? 2. Why is it called the chemical basis of life? 3. What are biological molecules? 4. What are their functions?
PROTOPLASM • Protos- First, Plasma - form • material basis of life or chemical basis of life • – living substance in which all animals and plants are made. • The word was coined by Hugo Von Mohl • Characteristics: -fluid, viscid, ductile and less transparent • -Aggregate of crystalloids and colloids • -reversible in sol gel system
3 Components: • Elements: • OCHN – 96 %, PSMgCa – 4% • oxygen • – oxidation of glucose • carbon • – component of organic molecule • hydrogen • – influence pH of body fluids • Nitrogen • – component of proteins and nucleic acid
2. Inorganic Compounds – lack carbons • Water • – 75% of the protoplasm, 2/3 of the body weight • Functions: • - neutral solvent • - dispersion medium • - participate in enzymatic rxn. • - Essential for metabolic activities • - Chief excretory product.
Properties: • High heat capacity • Polarity or Solvent Properties • Chemical reactivity • Cushioning
Salts • – contain CA and Phosphorous • – when dissolved in water separate into ions process is called Dissociation. • Salts are electrolytes • - they can conduct electrical current in solution. • Functions: • maintenance for osmotic pressure • clotting in blood • development of bones and teeth • formation of hemoglobin in rbc • normal functioning of muscles and nerves
Acids and Bases – • - are electrolytes, they ionize and then dissociate in water and can conduct electrical current. • ACIDS – sour taste and can dissolve metals • they release hydrogen ionsalso known as proton donors • Bases – have a bitter taste • proton acceptors; hydroxides • are commonly inorganic bases
the relative concentration of hydrogen ions in various body fluids is measured in concentration units • -called pH. • - pH scale – 1909 – Danish biochemist – Sorensen – referred based on number of protons in solution expressed in moles per liter. • - 0-6 is basic and 7 -14 is acidic
3. ORGANIC Compounds – - Carbon containing compounds substances derived from organism – known as macromolecules and the essence of life. Types: 1. Carbohydrates – most abundant, sugar and starch contain CHO group – made synthetically from water and carbon dioxide Functions: - source of chemical energy - components of protoplasmic structure
Types: • Monosaccharide • – simple sugar • Examples: glucose – blood sugar • Fructose/galactose • – converted to glucose for body • Ribose/deoxyribose • – part of nucleic acid
b. Disaccharides – double sugar Examples: Maltose – malt sugar - 2 glucoses Sucrose – table sugar – glucose plus fructose Lactose – Milk sugar – glucose plus galactose
C. Polysaccharides – complex sugar – ideal as storage products • Examples: • 1 starch • – plants • 2. glycogen • – animals • cellulose • – cell wall • Chitin • – egg • Agglutinogen • – blood
2.Fats and Lipids – 2-3% of the cell – diverse group of organic compound. Fats – mixture of triglycerides and steroids Lipids – fatty acids and glycerol Functions: - storage form of metabolic fuel - provides heat and energy - important part of cell organelles - important process in denaturation and photophosphorylation
Types of fats: a. Neutral Fats or simple lipids – triglycerides - building blocks: fatty acid and glycerol types: a. natural fats – examples – tallow, lard, butter and human fats. B. waxes – bees wax and ear wax
b. Phospholipids – phosphorous containing group - found in cell membrane, participate in transport of lipids and insulate the white matter in the brain. Example: Cephalin
c. Steroids - Fat molecules formed by 4 interlocking rings • examples: • cholesterol • – basis of all steroids • bile salts • – fat digestion – liver • vit D. • – for normal bone growth – skin • sex hormones • – normal reproductive functions • Adrenal Cortical Hormones • – cortisol – anti stress hormones
3. Proteins – 10-20% of the cell – 50 % of organic body – building block known as - amino acid Functions: - growth of new tissues and repair of old. - maintenance of osmotic pressure - important in formation of enzymes
Types: a. Fibrous proteins/ Structural – basic structural materials of the body. Examples: albumin – blood and egg white Globulin – plant seed Histone – nucleic acid Protamine – sperm cells
b. Globular Proteins/ functional proteins – play role in biological processes. • Groups: • Antibodies – Immunoglobulins • Hormones – growth hormone and insulin • Transport proteins – hemoglobin • catalyst – enzymes • – functional proteins that hasten chemical rxn without itself involve in the process. • - for biochemical rxn.
4. Nucleic Acids – polymers of nucleotides – made up of genes – blue print of life – largest biological molecules in the body. building blocks of NA - Nucleotides – Functions: participate in molecular mechanism and biosynthetic rxn. Parts: 1. nitrogen containing base 2. 5 carbon sugar – pentose 3. phosphate group bases: adenine, guanine, thymine, cytosine
Differences between DNA and RNA: DNA RNA Nucleus nucleus and cytoplasm Pair – a-t, g-c pair – a-u,g-c Dexyribose ribose 2 strand 1 carrier of genetic code for protein synthesis
5. Adenosine TriPhosphate – ATP – energy currency of the cell – provide form of chemical energy – a modified nucleotide
Applicationdetermine the classification of organic compound:1. Pentose2. enzymes3. immunoglobulins4. cephalin5. cerumin6. sucrose7. cytosine8. thymine9. guanine10. lard11. growth hormones12. bile salts13. steroids14. maltose15. nucleotides
